Quantum dot computer system based on inorganic compound molecules and control method thereof

Abstract

The invention relates to a quantum dot computer system based on inorganic compound molecules. The system comprises an inorganic compound molecule arithmetic unit, an inorganic compound molecule controller, an inorganic compound molecule memory, a molecule instruction set assembly, a quantum dot computer bus and a quantum dot computer I/O interface, the inorganic compound molecule arithmetic unit comprises a plurality of inorganic compound molecule arithmetic unit units capable of carrying out parallel operation, a large number of inorganic compound molecules, atoms, ions and electrons are arranged in the inorganic compound molecule arithmetic unit units, and the physical state or the chemical state of the inorganic compound molecules serves as the quantum state. Reversible quantum calculation and quantum information storage and transmission are realized through inorganic compound chemical reaction or ligand replacement reaction. The quantum computer is lower in power consumption, high in calculation speed, large in storage capacity and capable of automatically detecting faults, automatically positioning, self-copying and repairing fault parts through inorganic compound chemical reaction or ligand replacement reaction.

Description

technical field [0001] The invention belongs to the field of quantum computers, and in particular relates to a quantum dot computer system based on inorganic compound molecules and a control method thereof. Background technique [0002] Quantum computers are different from classical computers in that they follow the principles of quantum mechanics to perform high-speed arithmetic and logic operations, store and process quantum information. Like a classical computer, a quantum computer consists of hardware and software. The hardware includes quantum transistors, quantum memories, quantum effectors, etc., and the software includes quantum algorithms and quantum codes. In general, if quantum information is calculated and processed in a physical device, or a quantum algorithm is run, it can be regarded as a quantum computer. In the early 1980s, Benioff first proposed the idea of ​​quantum computing, and designed a prototype of an executable quantum Turing machine with classical...

AI Technical Summary

Problems solved by technology

[0007] 2. Quantum entanglement is difficult to operate and maintain

However, in existing quantum computers, it is also difficult to maintain quantum coherence and quantum entanglement for a long time. The quantum state is often disturbed by the outside world and the quantum entangled state is destroyed.

[0008] 3. It is difficult to select the correct calculation result from quantum parallel computing

[0009] 4. The difficulty required to maintain the quantum state and correct errors

In a quantum computer, it is difficult to realize the data replication function, data verification and data error correction in a classical computer

[0010] 5. High power consumption

In a photonic quantum computer, the distance traveled by one photon at the beginning is changed to many single photons in segments. As the communication distance increases, the resources and power consumed also show a polynomial increase, which will consume a lot of resources and power.

In addition, the interface of quantum computers with external devices and classical computers is still insufficient

[0011] 6. Troubleshooting is difficult

Therefore, the maintenance cost of quantum computers is very high, and it is difficult for non-professionals to maintain

[0012] Although the current quantum computer has made a lot of progress, there are obvious technical defects and difficult problems in the above aspects

Until today, the quantum computer scheme of the present invention has not appeared on the market

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